Smart City Software Platform

Description

Carriots can be used to collect data from all the sensors deployed in a city and avoid vertical silos information. Carriots development platform can be used to build applications to manage any of the different city services. From controlling gardening services to garbage processing, Carriots can be used as the application engine to support service delivering companies and city government global status supervision.

Benefits
  • Enables vertical application development to manage the different city services in an integrated way. Monitors the different services and infrastructures through dashboards and management applications.
Success Story

Smart Waste Management

Description

It all starts by installing filling sensor in street waste-recycling containers (several manufactures available) to send data to Carriots and monitor containers usage. Carriots logic module is then used to create dynamic pickup routes that are sent directly to truck’s on-board electronics. City government has dashboards and tools to monitor the service quality levels and plan futures resources.

Benefits
  • Recycling containers pickup service becomes more efficient reducing costs and CO2 emissions.
  • The City government has dashboards and tools to better manage the recycling process and improve recycling policies.
Customer Use Case:
  • Wairbut has developed their SINTELUR solution running over Carriots.
  • Carriots is used to collect filling levels of recycling containers and optimize pickup routes.
  • Wairbut developed a simple web Front-end application using Carriots API to manage the end-to-end solution.
  • Learn more about this solution with this nice video.

Smart Parking

Description

Magnetic sensors placed in the pavement or ultrasound sensors in the ceiling can detect the presence of cars parked and send the information to Carriots. Carriots logic combined with city parking assets data results in an application to guide car to free parking spaces. Carriots is also able to control street information displays as well as pushing information to citizens’ smartphones or navigation systems.

Benefits
  • Provide parking information to citizens. Improve traffic efficiency in the cities and reduce energy consumptions and CO2 emissions.
Success Story

Smart Traffic

Description

Magnetic sensors placed in the street’s pavement can detect the amount of traffic and the presence of traffic jams. This information is transmitted to Carriots to create city traffic maps. Carriots logic can be used to create traffic alerts to be pushed to street information displays as well as pushing information to citizens’ smartphones or navigation systems.

Benefits
  • Improve cities traffic efficiency; reduce energy consumptions and CO2 emissions.Provide traffic information to citizens.

Smart Street Lightings

Description

Carriots can be used to remotely control the lighting infrastructure of a city. By integrating Remote Terminal Unit (RTU) with Carriots, a smart system can be built to control streetlight and their power. The intensity of light can be adjusted to weather conditions or the presence of citizens by integrating other data sources and sensors within Carriots. Automated maintenance of streetlight can be achieved by integrating RTU status information with Carriots features to integrate maintenance operations through webservices.

Benefits
  • Reduce energy used in street lighting, saving resources and CO2 emissions. Enhance maintenance of lighting infrastructure.
Success Story